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Researchers in Prof. Karl Deisseroth's lab have discovered and engineered new microbial opsin proteins and cell trafficking tools to enable selective cell-type specific, light-sensitive switches for neuromodulation.

Researchers in Prof. Karl Deisseroth's laboratory have used optogenetic tools to develop an animal model for cocaine-modulated behavior modification by precisely targeting defined neural circuit elements.

Researchers in Prof. Karl Deisseroth's laboratory have identified a unifying endophenotype for psychosis that could be used to develop antipsychotic treatments.

Researchers in Prof. Karl Deisseroth's laboratory have used optogenetic tools to develop an animal model for social dysfunction by precisely targeting defined neural circuit elements.

Researchers in Prof. Karl Deisseroth's laboratory have used optogenetic tools to develop an animal model for anxiety by precisely identifying, creating, resolving, and targeting defined neural circuit elements.

Researchers in Dr. Karl Deisseroth's lab have developed a selective approach to treat anxiety. Anxiety is characterized by several features that are coordinately regulated by diverse neuronal system outputs.

Title: System and methods for optogenetic stimulation and inhibition of pain

Inventors: Shrivats Iyer, Kate Montgomery, Chris Towne, Karl Deisseroth, Scott Delp.

Researchers in Prof. Karl Diesseroth's laboratory have discovered a Dopamine receptor type 2 specific promoter (D2SP) that can be used to transfect, identify and isolate Dopamine R2 (D2R)-expressing cells.

Researchers in Prof. Karl Deisseroth's laboratory have used optogenetic tools to develop a precise, specific and inexpensive animal model of impaired memory.

Researchers in Prof. Karl Deisseroth's laboratory have developed a portfolio of microbial opsin proteins that can be used for precise and modular photosensitization components that enable optical control of specific cellular processes.

Stanford researchers have discovered a method (Triplesect) to express molecular payloads using three-recombinase-dependent viral expression.

Stanford researchers have developed a secured, invite-only version of their popular Eterna platform for designing mRNA vaccines.

Stanford researchers have developed a stochastic algorithm MC sampler for designing mRNAs showing improved translation in vitro.

Researchers at Stanford have developed, for the first time, a high-throughput method to systematically detect and identify silencer elements in the human genome.

Stanford researchers have discovered that ribonucleoside vanadyl complexes can be used as an additive in transcription reactions resulting in ~2-fold increased yield.